DE976187C - Process for the manufacture of hollow bodies that are completely closed on one side from plastics that can be molded in the heat - Google Patents

Description

(WiGBl. P. 175)

ISSUED APRIL 18, 1963

ρ 30589 X / 39 a? D.

The well-known pressing or injection molding process, which is one of the most modern methods for Manufacture of objects such as solid and hollow bodies has, among other things, the following shortcomings. It is almost impossible or very difficult by means of this method, hollow bodies over a certain length and in particular with walls under a certain thickness, likewise solid bodies over a certain length because the material, which is introduced through channels at one point of the die, within the walls of the die cools and hardens before the article is completely formed is. To avoid this, the matrix is often warmed up, and this is required for every operation a certain time for heating and cooling the die, which brings difficulties and slows down the production speed.

It is also known to have hollow objects with a closed end, especially bottles and Containers with necks made by blowing with compressed air; first taking a pipe from under Heat malleable materials is brought out of a nozzle. This pipe will then either outside the die or inside the die at the end closed or welded together, without having an exact shape, wall thickness or thickness that of the final one

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Corresponds to the shape, wall thickness or thickness of a part of the object to be fabricated. Afterward the material that comes out of the nozzle in the form of a tube is blown by means of Compressed air stretched so that it rests against the walls of the die. With this type of fabrication Material supply and air pressure or air supply must be very precisely matched to one another otherwise the object to be blown will burst

ίο or becomes unevenly strong in the walls. Further the material must be in such a plastic state through precisely regulated supply of heat be kept that a uniform expansion of the material take place by the air pressure can, d. H. also the distribution of heat over the whole object must be during the whole The blowing process must be very even, otherwise the warmer, softer parts will become stronger expand than the colder, harder parts. It

ao it is clear from what has been said that an exact dimensioning of the wall thicknesses here is impossible and the process requires very complex and expensive machines.

The invention has the task of eliminating the disadvantages of the known methods and the possibility of making any plastic that can be molded under heat on one side which is completely closed Hollow body with any independent thickness of side and end walls can be produced with the same tool in one operation.

The invention is based on a method in which the plastic is deformable in hot State through a core through its holder into one between the core and the This surrounding shape is pressed into the cavity which is kept free and then under axial Moving the core and mold against each other to the part of the hollow body that has already been created subsequent wall parts are produced from post-funded plastic.

According to the invention, the aforementioned object is achieved

solved by combining all of the following features:

a) The hollow shape, which is the entire outer shape of the body to be produced or only corresponds to a part of the same, is so far before the start of the manufacture of the hollow body pushed over a stationary core that between the face of the core and the The bottom surface of the mold creates an uninterrupted cavity that is the thickness of the completely closed, first emerging part (bottom or head part) of the part to be produced Hollow body corresponds;

b) a vacuum preventing agent is placed between the end face of the core, the hollow body bottom and the gradually produced wall parts of the hollow body are introduced through the opened closing member;

c) while filling the cavity with plastic is while maintaining the position

the shape in relation to the core, the air in the cavity under the pressure the plastic is discharged through a lockable opening at the bottom of the mold, and after filling the cavity with plastic, the closable opening is closed by this;

d) the mold is cooled during the processing of thermoplastics and during the Processing of thermally curable plastics heated, which prevents the vacuum Means, depending on the type of plastic, are also used for cooling or heating will;

e) after the cavity has been filled with plastic forming the bottom of the hollow body as the lockable opening is closed, the shape gradually becomes with replenishment of the plastic required for the wall parts of the hollow body from removed from the stationary core in the axial direction at a controlled speed and at the same time a closing member on the end face of the core opened, which one of an insulating space insulated against the transmission of the external temperature of the core locked in the core.

An advantageous development of the method according to the invention is characterized in that before and during the manufacturing process of the hollow body through openings in the walls of the Hollow form the air is sucked out of the hollow form.

In all of this, the procedure is expediently carried out in such a way that as an anti-vacuum agent the material is introduced into the hollow body, for which the hollow body serve as a container target.

The drawings show schematically an example of the method according to the invention in its application on the production of tubes with a device suitable for the process, and although show

Fig. Ι and 1 a in two parts a longitudinal section through a core and a mold before the start of manufacture, Fig. 1 a showing the main body of the Kerns, which is screwed into the machine for inserting the material,

2 shows a longitudinal section through the core and the mold during the course of manufacture,

Fig. 3 the opened and separated from the core mold after manufacture with the manufactured Tube between its parts,

4 shows a longitudinal section through the mold and the core during the course of manufacture, the hollow body during manufacture with a substance for which it is used as a container or packaging should serve, is filled.

In the drawing, 1 denotes the main body of the core on which the others make up the core Parts are mounted and on a (not shown) machine for introducing the material

(Injection press, screw press or the like.) Is attached. The core consists of the movable outer jacket 3, which serves as a spacer and slides on the guide 6. The guide 6, which is screwed and held with the tubular extension 5 α of the part 5 at the point 6 a , forms with the extension S α of the part 5, the channel 7 for heating or cooling medium, which is introduced through the tube 19 and through the tube 19 a can be led off. An electrical heating resistor can also be built into the duct 7. The heating is used to keep the material 23 within the channel 26 in a warm, deformable state, the cooling is used to reduce the temperature of the material when the correct temperature for the material is exceeded. Together with the outer jacket of the tube 10, the tubular extension 5 a of the part 5 forms the channel 26 through which the material 23

ao is conveyed to the material outlet opening 25.

At the material outlet opening 25, an annular recess 24 is provided, which the supports rapid and even settling of the material. The size of this annular recess can be changed during the operation by the movement of the outer shell 3 of the core will. This changes the speed and strength of the flow of the material, what for maintaining the desired wall thickness, especially for objects with strong variable wall thickness is essential. The outer jacket 3 of the core is supported by the piston 4 moved, which in turn is driven by compressed air that is fed in and out through the bores 21 and 22. exit. The piston 4 is located in a cylinder which consists of the parts 1 and 2 is formed. Between the tube 10 and the inner tube 8 there is a tubular cavity 9 formed, which is used for insulation to the heat transfer from the material 23 in the Channel 26 to avoid the coolant 35 in the channel 11. Through the channel 11 in the pipe 8 a coolant 35 is introduced in accordance with the progress of the manufacture of the hollow body, preferably the substance for which the object to be manufactured serves as a packaging or container Has.

The coolant 35 cools the object and prevents a vacuum from being created inside of the item during manufacture. The entry of the coolant 35 is through the closing member 12 controlled, which is pressed in the rest position by the spring 13 on its seat. The feed of the coolant 35 or of the substance 35, which is to serve to fill the hollow body, takes place through the tube 20. The head 14 of the core is shaped to match the internal shape of the end or the bottom of the object to be manufactured. The piece 17 forms together with the Part 5 shows the inlet channel for the material 23 into the material feed channel 26.

The correct centering and the uniform distance between the tube 10 and the tubular extension 5 α of the part 5 to form the channel 26 for the material 23 is ensured by spacers 28 which are designed so that they only slightly reduce the cross section and the material passage do not hinder. At the same time, the spacers 28, together with the spacers 29 designed in the same way, serve to hold the inner parts of the core in the correct position.

The mold 15 has a valve 16 at its bottom, which is open at the start of the operation, so that during the inflow of the material 23 in the space between the bottom of the Shape and the material outlet opening of the core the air that is in this space, can escape. The inflowing material 23 closes this valve 16, so that from the position of the valve stem 27 can be seen when this space is filled with the material 23. This valve is therefore also referred to as a signaling valve, because at the moment when this valve closes, the relative movement between the mold and the core must be followed by the further Production of the hollow body at the same time the outflow of the coolant 35 or the substance 35, the is used to fill the hollow body, insert through the closing member 12.

The mode of operation is as follows: At the beginning of the manufacturing process, the mold 15 is closed and the valve 16 is open. The core is located within the mold so that the front or extreme end of the core is at a distance from the bottom of the mold 15 which corresponds to the thickness of the bottom to be fabricated. The material outlet opening 25 with the annular recess 24 is located near the bottom of the mold 15. At the beginning of production, the mold and the core are at rest. The material 23, which is located in the material feed channel 26, passes through the outlet opening 25 into the annular space 24 formed by the recess and from here is distributed evenly in the area between the bottom of the mold 15, the outermost end or head 14 of the core and the intermediate space formed by the material outlet opening 25 or the annular space 24, while at the same time the air which is located in this intermediate space no escapes through the valve 16. When this part of the object is finished, which is signaled by the position of the shaft 27 of the valve 16, the movement of the mold begins, which in the closed state is moved away from the core at a controlled speed, as shown in FIG the material 23 is continuously fed through the material feed channel 26, the material outlet opening 25 and the annular space 24 into the mold 15. During this operation, at the same time, in order to avoid an internal vacuum and to cool the hollow body being produced, the coolant 35 or the substance 35 with which the hollow body is to be filled, through the tube 20 and the channel 11 under the control of the closing member 12th

into the space released by the core in the hollow body being formed introduced. When the mold 15 has reached its end position and the hollow body is in the desired position Length is shaped and made, the introduction of the coolant 35 passing through the channel 11 flows, turned off, at the same time the feed of the material is interrupted, the hollow body of the material separated, the mold 15 opened (Fig. 3), and the finished, empty or filled hollow body falls out. After the mold has been emptied, it is closed again and returns to its initial position return.

The shape used can either be a shape whose side walls take the entire external shape of the hollow body to be produced, or if the hollow body to be produced at least has a constant cross-section over part of its length, a partial shape can be used will. The procedure for using a part form is basically the same and corresponds what has been described above. The difference is that the shape 15 is only comprises the bottom part or the part of the object which does not have a constant cross-section.

The method of working with a partial form is as follows: After the bottom in the manner described above of the hollow body is made, the mold 15 and the core 14 at a controlled speed spread apart; here the core 14 emerges from the mold 15, while the material 23 further in the desired strength from the annular space between the head 14 of the core and the front part of the jacket 3 is pressed. The side walls of the hollow body are so in the Atmosphere between the part shape and the material outlet opening of the core without an external shape and made without an inner core. By changing the space between the head 14 of the core and the front part of the shell 3 can, for example, the wall thickness of the hollow body to be changed; Another possibility is by changing the speed given the relative movement between form and core. The coolant or substance used to prevent it an internal vacuum is, as already described, through the channel 11 into the interior of the in the manufacture of the hollow body introduced.

Claims (2)

PATENT CLAIMS: i. Process for the production of hollow bodies completely closed on one side in the Heat deformable plastics with the same tool in one operation, in which Process the plastic in a hot, deformable state over a core through its Holder through in a freely held between the core and the form surrounding it Cavity is pressed in and then, with axial displacement of core and mold against each other, the one that has already arisen Part of the hollow body subsequent wall parts produced from post-conveyed plastic are characterized by the combination of all of the following features: a) the hollow shape (15), which is the entire outer shape of the body to be produced or only a part of the same, before the start of the production of the hollow ». body pushed so far over a fixed core (3, 5, 6, 10, 14) that between The end face of the core and the bottom surface of the mold create an uninterrupted cavity that corresponds to the thickness of the corresponds to completely closed, first emerging part of the hollow body to be produced; b) a vacuum preventing agent is placed between the end face of the core, the The hollow body and the gradually produced wall parts of the hollow body are introduced through the opened closing member (12); c) while filling the cavity with plastic, while maintaining the Position of the mold (15) in relation to the core (3j 5j 6, 10, 14) the air in the cavity under the pressure of the plastic discharged through a lockable opening at the bottom of the mold, and after filling the cavity with plastic, the closable opening is closed by this; d) the mold (15) is in processing Thermoplastics are cooled and thermally curable during processing Heated plastics, the means preventing the vacuum depending on the type of plastic is also used for cooling or heating; e) after filling the cavity with the bottom of the hollow body forming As the lockable opening is closed, plastic will gradually change its shape while replenishing the plastic required for the wall parts of the hollow body from the stationary core removed in the axial direction at a controlled speed and at the same time Closing member (12) open on the end face of the core, which is one of a Isolierraum (9) isolated against the transmission of the external temperature of the core Line (8) closes in the core. 2. The method according to claim 1, characterized in that that before the beginning and during the manufacturing process of the hollow body through openings in the walls of the hollow mold (15) Air is sucked out of the hollow mold. 3 · method according to claims ι and 2, characterized in that the material in the hollow body as a vacuum preventing means is introduced, for which the hollow body is to serve as a container. Considered publications: German Patent No. 529469; British Patent No. 570451; U.S. Patents Nos. 2,175,053, 2,175,054, 2205837, 2262612, 2288454. 1 sheet of drawings © 309 555/10 4.63